Патент USA US2412072код для вставки
2,412,072 Patented Dec. 3, 1946 UNITED STATES PATENT‘ OFFICE 2,412,072 METHOD or GASSING RUBBER Roger Charles Bascom, Port Clinton, Ohio, and Dudley Roberts, deceased, late of New York, N. Y., by Dudley Roberts, Jr., executor, New York, N. Y., assignors to Rubatex Products, Inc., New York, N. Y., a corporation of Dela ware No Drawing. Original application August 19, 1937, Serial No. 159,910. Divided and this ap plication June 12, 1942, Serial No. 446,772 1 Claim. (Cl. 260-425) 1 Our invention relates to a method of producing gas expanded closed cell plastic structures and more speci?cally relates to a method of gassing and expanding rubber by means of a mixture of carbon dioxide and nitrogen, and the article pro duced thereby. In the prior practice in this art it has been ~ 2 V . ished article and at the same time it is farmore difficult to incorporate nitrogen than a corre spondingly more soluble but less desirable, gas such as carbon dioxide. According to the process of our invention we found extremely difficult and expensive to gas avail ourselves of the desirable properties of dif ?cultly permeable gases and eliminate the unde sirable effects which ordinarily accompany the rubber or rubber-like materials to produce a gas use of soluble gases. More speci?cally, We employ a mixture of car expanded structure. Certain inert gases have 1O bon dioxide which is extremely soluble in the been suggested, such as nitrogen, helium, and rubber and penetrates quickly therein, and nitro carbon dioxide. Each of these gases speci?cally gen which is insoluble in the rubber but is quickly has disadvantages which render it either di?icult carried therein by the carbon dioxide, The ni to use or detrimental to the ?nished product. Thus, nitrogen is difficult to inject into rubber be 15 trogen, when once incorporated within the rub ber has little tendency to diifuse out from the cause of its low solubility with rubber. On the structure to cause a collapse, This has been one other hand, it has the desirable property of re of the serious defects of the process in the prior maining in the cellular structure and support art. ing the expanded mixture, when once it is intro In this use of a mixture of carbon dioxide and duced, because of its insolubility in the rubber. nitrogen gases, when an external application of In addition to this insolubility in the rubmr, the the gas mixture is used to gas the rubber, the car partial pressure of nitrogen present in the air bon dioxide acts as a carrier for the nitrogen and that normally surrounds such a structure, makes by reason of its solubility in the rubber carries it less likely, according to physical gas laws, for such nitrogen to diffuse outwardly from the mix 25 the nitrogen along with it into the rubber under less pressure than would ordinarily be needed if ture. nitrogen alone were used. With respect to helium, expense is the primary In the past it has been necessary to gas under objection. The gas is at present so expensive a pressure of 4,000 pounds per sq. in. of nitrogen. that its commercial use is impractical. Carbon dioxide, in contrast to nitrogen, can 30 To develop such a pressure, high pressure pumps have been used. Such pumps are very costly. be readily introduced into a rubber structure The gassing autoclaves needed to hold such pres since it has a high degree of solubility with rub sures must be of great strength and involve the ber. Its cost is relatively IO’W. On the other hand, use of heavy walls and lids. Not only does such its high solubility in the rubber and the com parative lack of carbon dioxide in the atmos 35 high pressure apparatus occupy a large amount of space by reason of its necessary bulk but its phere that normally surrounds the structure cost maintenance is exceedingly high. For ex causes an almost complete diffusion into the air ample, the gassing autoclave alone has an initial of the carbon dioxide from the cellular struc cost of about $5,000. ture after the material has been expanded and According to our invention we can employ a 40 exposed to the air. pressure of 1,500 pounds per square inch. As is With regard to the tendency of a gas enclosed obvious to any engineer, when the pressure in in a sealed rubber structure to escape therefrom, volved in the operation is reduced from 4,000 the factors of primary importance are the par pounds per square inch to 1,500 pounds per square tial pressure of the gas in the cell and the pres sure of the same gas in the surrounding atmos 45 inch, the apparatus involved can be greatly sim pli?ed and the cost of such apparatus greatly phere. This regulates the tendency of the gas, reduced. ‘As will be pointed out hereafter such according to physical laws to establish an equi cost reduction is of vital importance in this in librium in pressure through the membrane that dustry. separates the two different concentrations of The manufacture of expanded rubber is a new gases. The speed of the passage of the gas 50 industry. It has been forced to compete with through the Wall is regulated by the solubility of other materials which, although inferior in desir the gas in the medium that composes" the wall, able characteristics such as waterproofness, e. g., rubber. strength, resiliency and insulating values, are farv More speci?cally, it can be seen that according to these precepts it is highly desirable to incorpo 55 lower in cost. The problem of reducing manu facturing costs so that competition with regard rate nitrogen gas in a rubber structure as a ?n 2,412,072 3 The above compounds have different ingredi-' to price range is more even, is the primary prob lem of'theindustry. ' Hard board gas expanded ents and. different sulphur contents toproduce a hard or soft rubber absorption, as may be de sired. The smoked rubber is thoroughly masti rubber, for example, is, splendidly adapted ._as a: construction element in low cost housing by rea- ' rubber. “porated the. zinc oxide, whiting, paraffin wax, phenylbetanaphtha-amine and diphenylguanig terial step in lowering manufacturing costs to enable the use of this material; in low’ cOsthous ing. - ' When the gas is applied internallyof theirub- ‘ her in the form of chemicals adapted to react or decompose under in?uences such as. heat to- evolve To this is added the reclaimed Immediately thereafter there is incor -~cated upon rolls. son of its unique and valuable properties. Be cause of its high cost ofproduction however, it has been just above the necessary price range. The present process set forth herein is a- ma 10 "dine. Immediately after blending these above ingredientsQsulphur isadded to the rubber mix. These‘ materials are thoroughly incorporated ' in therubber. on the rolls and the rubber is then’ allowed to rest in av cool dark place for a periodof ’ about24 hours. , . ‘This serves to, allow the molecular structure of again serves as a unique agent to obtain a greater ‘ft-he rubber to restore itself to its normal position. _ expansion of the rubber than nitrogen alone f The violent working of the rubber on the rolls carbon dioxide and nitrogen, the carbon dioxide ‘ appears to disarrange by the spiral or extended - could e?ect. molecular structure of the rubber and affect-cer 7' Carbon dioxide has a far greater expanding power than nitrogen. . However, when used alone, 20 tain of . its desirable properties. it has vbeen found that superior results “and ' improved properties in the final ‘structure are obtained by the use of this rest period. panded structure collapses and is useless. When After the modi?ers have been incorporated in a-mixture of nitrogen and-carbon dioxide is used, the carbon dioxide gives the rubber the desired 25 the rubber mix and the rubber has been thor oughly rested, it is. shaped on a suitableforming ‘great expansion and. theinitrogen maintains :the machine such as an extruder or calender. The expanded structure after the carbon dioxide has so-shaped structure is then placed into a gassing diffused out. Thus it can be seen that when in chamber and subjected to a gas pressure of ‘a ternal gas‘evolution is used, the mixture of car bon dioxide and ‘nitrogen again has an unusual 30 mixture about equal percentages .of carbon diox ide and nitrogen with an individual pressure of and‘valuable result. . \ , about 750‘ pounds per square inch of each anda Similarly, a combination of external and inter total pressure of 1,500 pounds per square inch. nal gassing may be employed. The particular After the rubber mix has been thoroughly im desired propertiesof each gas can‘be used as in pregnated with this gas, the pressure is released dicated above. _ 7 Accordingly, it is an object of our invention to and the mix is taken out and placed in suitable molds. There it is subjected to a vulcanizing heat provide a new method of producing gas expanded which acts to completely expand the gas enclosed rubber. . in the rubber and consequently the rubber Another objectiof our invention is torproduce a method of e?iciently gassing the rubber struc 40 structure itself, and also to vulcanize the‘! rubber it-willdiifuse out of- the rubber into the air for the reasons-discussed before. - Thereupon,v the ex ture. - to ‘ a ?nal cure. . . ‘ ' ' Another object of ‘our inventionis to gas rubber The rubber dough can‘ be given a preliminary by'means of a mixture, a carrier gas and a sus vulcanization or partial cure, before gassing, or taining gas. ' concurrently with the gassing. This is in order Another‘object of our invention is togas' rubber 45 that the rubber structure itself will be su?iciently rigid or set to prevent the escape of the enclosed V by means of a mixture of a gas relatively soluble gas. in rubber anda gas relatively insoluble in rubber. Another object of our invention is to gas rub- _ her by meansof a mixture of carbondioxide and nitrogen. , , Another object of our invention is to ‘provide a ‘new process of gassingrubber using a low pres sure and a comparatively short period of time. A special illustration of the composition and the method for carrying out the process of our invention ~ is as follows: , ~ ‘ , Parts by weight 50 Wholetire reclaim rubberu' __________ __,__ 100 Zinc oxide _____ __‘._'_ _________________ __ 4 _____ _;__; _______________ __-____ 50 fS-‘ulphun; _____ __> _____________ __. ______ .. 3 Whiting Phenylbetanaphtha-amine ____________ __ l ‘Paraf?n wax __________________________ _ _ '3 ‘Diphenylguanidine ____ _; ______________ __ to be permeated, as for instance, carbon dioxide and a gas that is relatively insoluble in such a structure, as for instance, nitrogen. When it‘ is desirable to impregnate rubber, the pressure will be of the order of 750 pounds of carbon dioxide and 750pounds of nitrogen effecting a total pres sure of 1,500 pounds per square inch. I. Soft rubber mix Smoked sheets of rubber ______________ __ Speci?cally with regard to the gas mixture that is to be employed in our process, we take a mixture of gas that is soluble in the structure 7 0.5 The un usual advantages of the mixture of the "above in dicated nature lies in the fact that whereas ‘a, greater pressure is needed to expandthe struc-' ture, a greatly reduced gas pressure "isnecessary ‘to maintain such structure when it is set. Thus, while the foregoing gas mixture a?ords a total pressure of ‘1,500 pounds per square inch, thereis introduced to the'rubber a 750 pound pressure both of carbon dioxide and nitrogen, the pressure of ‘750 pounds of nitrogen being su?ie cient to maintain the expanded structure after H. Hard rubber mix the carbon dioxide,whichhas served as a pene ‘Parts by ‘weight 70 trating carrier for the nitrogen, has e?iciently expanded the rubber and then has diffused out ‘Smoked sheets of rubber _______________ __ 50 of the structure into the atmosphere'as pointed ‘Whole tire reclaim rubber _______ __‘-__'____ 10 '1 Zinc oxide _____,.______________________ __ “Sulphur - ________ __' _________________ __'_7. IDinhenylgu'anidine _ ; _____________ __'_ ____ 4 ,5'0 0.5 out above. The action of the mixture of, the gases pro duces entirely ‘new and unexpected results that " 2,412,072 5 are far beyond the expected properties resulting from a mixture of gases. The combination of quick penetration and high expansion together with the retention of the expanded structure be cause of the nitrogen contained therein, effects 6 in the incorporation of chemicals adapted to re act or decompose to produce carbon dioxide, as for instance, ammonium carbonate; and chemi cals adapted to react or decompose to produce It has been a custom to use pressures of nitro nitrogen, as for instance, diazoaminobenzene, or ammonium chloride and sodium nitrite. When this combination of gas is used the car bon dioxide supplies the expanding forces within gen at 4,000 pounds per square inch. According the structure and the nitrogen acts to support the a gas process that is far more e?icient than the previous processes of this art. to this invention, we may use a gassing process 10 expanded structure after the carbon dioxide has diffused out therefrom. with a total pressure of 1,500 pounds per square It can thus be seen that the combination of a inch. As is evident, the cost of gassing under carrier and expanding gas such as carbon dioxide higher pressures increases rapidly as greater or ammonia of high permeability in the rubber pressures become necessary. The reduced pres structure to be gas impregnated, and a gas such sure of 1,500 pounds per square inch which we as nitrogen or helium which is miscible with the employ here not only materially reduces the cost carrier gas and can by its nature be retained in of the manufacture of gas expanded rubber but the gas structure after the high soluble carrier obtains results superior to those achieved when gas has diffused out, can achieve superior re 4,000 pounds per square inch of nitrogen is used. A greater expansion is obtained by reason of 20 sults to any single gas. The particular pressures and proportions of the carbon dioxide gas component than when the gases set forth are by way of example only. nitrogen is used alone and a stronger structure An extremely wide range has been investigated with little tendency to collapse by reason of the and found effective for the purpose indicated. nitrogen gas component is obtained than when We wish to be limited only as set forth in the carbon dioxide is used alone. Thus materially claim. , superior results in addition to economy of opera This application is a division of Serial No. 159, tion are e?ected by the use of the mixture of 910, ?led August 19, 1937, issued as Patent No. gases. 2,286,230 on June 16, 1942. The method may be carried out using a mix ture of externally applied carbon dioxide and 4 nitrogen gas or the equally bene?cial results may ‘be obtained by incorporating in the rubber mix chemicals which react or decompose to evolve a carbon dioxide gas. The nitrogen gas component may be introduced by external penetration, An alternative method of incorporating the mixture of the gas within the structure resides We claim: A gas expanded rubber comprising closed cells, said closed cells containing a non-oxiding mix ture of nitrogen and ammonia. DUDLEY ROBERTS, J R., Executor of the Last Will and testament of Dud leg Roberts, Deceased. ROGER CHARLES BASCOM.